EC:3.1.4.3 - FACTA Search

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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The receptors involved in the regulation of phospholipase C by hormones, neurotransmitters and other ligands have seven transmembrane-spanning hydrophobic regions (seven-helix motif) and no known enzymatic activity. Furthermore these receptors can be isolated as complexes with guanine nucleotide binding (G) proteins. Guanine nucleotides affect the binding of hormones that stimulate phospholipase C and it has been possible to see activation of GTPase activity in membranes upon addition of these ligands. Further indirect evidence for a Gp (p stands for phospholipase C activation) protein is the finding that in membranes agonist activation of phospholipase C requires the presence of GTP gamma S a non-hydrolyzable analog of GTP. Furthermore, fluoride is able to activate phospholipase C but its inhibition of phosphatidylinositol-4' kinase (PI-4' kinase) can interfere with efforts to demonstrate this in intact cells. There are four major isozymes of phospholipase C that have been cloned and sequenced. Recently it was found that phospholipase C-gamma as well as PI-3'-kinase are substrates for phosphorylation on tyrosine residues by the EGF and PDGF receptors. The PI-3' kinase is able to convert phosphatidylinositol 4,5-bisphosphate (PIP2) to phosphatidylinositol 3,4,5-trisphosphate (PIP3) but the function of this lipid is unknown since it is not a substrate for any known phospholipase C. While much has been learned about the structure and regulation of the phosphoinositide specific kinases and phosphodiesterase enzymes this is a relatively new field in which we can expect many advances during the next few years.
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PMID:Regulation of phosphoinositide-specific phospholipase C. 216 88

The ability of three pure types of bovine brain phospholipase C (PLC) and one pure rat liver PLC to utilize as substrates the recently discovered phosphatidylinositol 3-phosphate (PI-3-P), a putative phosphatidylinositol 3,4-bisphosphate (PI-3,4-P2), and phosphatidylinositol trisphosphate (PIP3) was investigated. PI-3-P, PI-3,4-P2, and PIP3 are the products of phosphorylation of PI, PI-4-P, and PI-4,5-P2, respectively, by phosphoinositide 3-kinase activities that are associated with certain protein-tyrosine kinases. Although these new phospholipids have been found in intact cells, PI-3,4-P2 and PIP3 appear only after stimulation of quiescent cells with growth factors such as platelet-derived growth factor (Auger, K. R., Serunian, L. A., Soltoff, S. P., Libby, P., and Cantley, L. C. (1989) Cell 57, 167-175) and after transformation by certain oncoproteins (L. A. Serunian, K. R. Auger, T. M. Roberts, and L. C. Cantley, manuscript in preparation). Mixtures of [3H]PI-4-P plus [32P]PI-3-P or [3H]PI-4,5-P2 plus [32P]PI-3,4-P2 or PIP3 alone were used as substrates for PLCs in vitro. After incubation with enzyme followed by extraction with chloroform/methanol/HCl, the ratio of 3H/32P in the aqueous layer revealed the selective hydrolysis of PI-4-P and PI-4,5-P2 over PI-3-P and PI-3,4-P2. High performance liquid chromatography analysis of the aqueous layer containing reaction products confirmed that only PI-4-P and PI-4,5-P2, were hydrolyzed to inositol 1,4-P2 and inositol 1,4,5-P3, respectively. These findings suggest that the turnover of PI-3-P, PI-3,4-P2, and PIP3 occurs independently of the turnover of PI-4-P and PI-4,5-P2.
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PMID:Polyphosphoinositides produced by phosphatidylinositol 3-kinase are poor substrates for phospholipases C from rat liver and bovine brain. 255 93

Stimulation of the respiratory burst of neutrophil leukocytes with chemotactic agonists requires two concomitant signal transduction pathways. One is calcium dependent and leads to activation of phospholipase C, the other is calcium independent but sensitive to the fungal metabolite wortmannin, a specific inhibitor of phosphatidylinositide 3-kinase (PI 3-kinase). Two isoforms of PI 3-kinase have been characterized in neutrophils, the p85/p110 PI 3-kinase alpha and the p101/p120 PI 3-kinase gamma. The relative contribution of the two PI 3-kinases in mediating chemoattractant-stimulated superoxide production and exocytosis in neutrophils in unclear. Here, we report that the protein tyrosine kinase inhibitor genistein markedly attenuates chemoattractant-stimulated phosphatidylinositol (3,4,5)-trisphosphate (PIP3) formation in neutrophils. PI 3-kinase activity in untreated cells is bimodal showing a maximum production after 10-15 sec that protracts with a lower PIP3 formation for approximately 2 min and returns to basal levels after 2-3 min. Genistein at 100 microM strongly inhibits PIP3 elevation and the fMet-Leu-Phe-stimulated respiratory burst. The activity of purified PI 3-kinase, however, is not altered in the presence of genistein, suggesting that the genistein-sensitive intermediate is located between the G-protein-coupled receptor and PI 3-kinase. Expression of a dominant negative form of PI 3-kinase alpha in GM-1/CXCR1 cells, a promyelolocytic cell line transfected with the G-protein-coupled receptors CXCR1, considerably reduces IL-8-stimulated PIP3 formation. The present observations suggest that in phagocytes stimulated with agonists of G-protein-coupled receptors the bulk of PIP3 is generated by PI 3-kinase alpha, which is activated through a genistein-sensitive target, presumably a protein tyrosine kinase.
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PMID:G-protein coupled receptor-mediated activation of PI 3-kinase in neutrophils. 970 65

Phosphatidylinositol transfer proteins (PITP) are abundant cytosolic proteins found in all mammalian cells. Two cytosolic isoforms of 35 and 36 kDa (PITP alpha and PITP beta) have been identified which share 77% identity. These proteins are characterized by having a single phospholipid binding site which exhibits dual headgroup specificity. The preferred lipid that can occupy the site can be either phosphatidylinositol (PI) or phosphatidylcholine (PC). In addition, PITP beta can also bind sphingomyelin. A second characteristic of these proteins is the ability to transfer PI and PC (or SM) from one membrane compartment to another in vitro. The function of PITP in mammalian cells has been examined mainly using reconstitution studies utilizing semi-intact cells or cell-free systems. From such analyses, a requirement for PITP has been identified in phospholipase C-mediated phosphatidylinositol bisphosphate (PI(4,5)P2) hydrolysis, in phosphoinositide 3-kinase catalyzed PIP3 generation, in regulated exocytosis, in the biogenesis of secretory granules and vesicles and in intra-golgi transport. Studies aimed at elucidating the mechanism of action of PITP in each of these seemingly disparate processes have yielded a singular theme: the activity of PITP stems from its ability to transfer PI from its site of synthesis to sites of cellular activity. This function was predicted from its in vitro characteristics. The second feature of PITP that was not predicted is the ability to stimulate the local synthesis of several phosphorylated forms of PI including PI(4)P, PI(4,5)P2, PI(3)P, PI(3,4,5)P3 by presenting PI to the lipid kinases involved in phosphoinositide synthesis. We conclude that PITP contributes in multiple aspects of cell biology ranging from signal transduction to membrane trafficking events where a central role for phosphoinositides is recognized either as a substrate or as an intact lipid signalling molecule.
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PMID:Mammalian phosphatidylinositol transfer proteins: emerging roles in signal transduction and vesicular traffic. 1035 25

The human high affinity receptor for immunoglobulin G, FcgammaRI, in dibutyryl cyclic AMP (dbcAMP)-differentiated U937 cells, is coupled to the activation of phospholipase C (PLC) and the conventional protein kinase C (PKC) isoforms, alpha, beta, and gamma. Here we demonstrate that aggregation of FcgammaRI activates the tyrosine-kinase regulated form of phosphatidylinositol-3-kinase (PI-3-kinase) and that an increase of phosphatidylinositol trisphosphate (PIP3) is essential for the activation and translocation of PLCgamma1 in these cells. In addition, activation of the PKC isoforms was ablated by specific inhibitors of PI3-kinase or by overexpression of a dominant negative p85 subunit of PI3-kinase. The findings reported here demonstrate that PLCgamma1 and PKC activation by FcgammaRI are downstream of PI3-kinase, and that in contrast to cytokine primed cells, only the tyrosine-kinase activated isoform of PI3-kinase is coupled to FcgammaRI in dbcAMP-differentiated cells.
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PMID:FcgammaRI activation of phospholipase Cgamma1 and protein kinase C in dibutyryl cAMP-differentiated U937 cells is dependent solely on the tyrosine-kinase activated form of phosphatidylinositol-3-kinase. 1046 27

Loss of the tumor suppressor MMAC1 has been shown to be involved in breast, prostate and brain cancer. Consistent with its identification as a tumor suppressor, expression of MMAC1 has been demonstrated to reduce cell proliferation, tumorigenicity, and motility as well as affect cell-cell and cell-matrix interactions of malignant human glioma cells. Subsequently, MMAC1 was shown to have lipid phosphatase activity towards PIP3 and protein phosphatase activity against focal adhesion kinase (FAK). The lipid phosphatase activity of MMAC1 results in decreased activation of the PIP3-dependent, anti-apoptotic kinase, AKT. It is thought that this inhibition of AKT culminates with reduced glioma cell proliferation. In contrast, MMAC1's effects on cell motility, cell - cell and cell - matrix interactions are thought to be due to its protein phosphatase activity towards FAK. However, recent studies suggest that the lipid phosphatase activity of MMAC1 correlates with its ability to be a tumor suppressor. The high rate of mutation of MMAC1 in late stage metastatic tumors suggests that effects of MMAC1 on motility, cell - cell and cell - matrix interactions are due to its tumor suppressor activity. Therefore the lipid phosphatase activity of MMAC1 may affect PIP3 dependent signaling pathways and result in reduced motility and altered cell - cell and cell - matrix interactions. We demonstrate here that expression of MMAC1 in human glioma cells reduced intracellular levels of inositol trisphosphate and inhibited extracellular Ca2+ influx, suggesting that MMAC1 affects the phospholipase C signaling pathway. In addition, we show that MMAC1 expression inhibits integrin-linked kinase activity. Furthermore, we show that these effects require the catalytic activity of MMAC1. Our data thus provide a link of MMAC1 to PIP3 dependent signaling pathways that regulate cell - matrix and cell - cell interactions as well as motility. Lastly, we demonstrate that AKT3, an isoform of AKT highly expressed in the brain, is also a target for MMAC1 repression. These data suggest an important role for AKT3 in glioblastoma multiforme. We therefore propose that repression of multiple PIP3 dependent signaling pathways may be required for MMAC1 to act as a tumor suppressor.
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PMID:The MMAC1 tumor suppressor phosphatase inhibits phospholipase C and integrin-linked kinase activity. 1064 97

In the past decade lipid vesicle fusion induced by either bacterial PC-preferring phospholipase C, phosphatidylinositol-specific phospholipase C, sphingomyelinase, or a combination of phospholipase C and sphingomyelinase has been demonstrated. In the present paper, the experimental evidence is reviewed, and discussed in terms of the underlying molecular mechanisms of fusion, and of the possible physiological relevance of these findings.
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PMID:Membrane fusion induced by phospholipase C and sphingomyelinases. 1142 88

Expression of the wild type alpha subunit of Gq (GqWT) in cardiomyocytes induces hypertrophy, whereas a constitutively active G alpha q subunit (GqQ209L) induces apoptosis. Akt phosphorylation increases with GqWT expression but is markedly attenuated in cardiomyocytes expressing GqQ209L or in those expressing GqWT and treated with agonist. A membrane-targeted Akt rescues GqQ209L-expressing cardiomyocytes from apoptotic cell death. In contrast, leukemia inhibitory factor fails to activate Akt or promote cell survival in these cells. Association of Akt and PDK-1 with the membrane is also diminished in GqQ209L-expressing cardiomyocytes. Phosphatidylinositol 3,4,5-trisphosphate (PIP3), the primary regulator of Akt, increases significantly in GqWT-expressing cells but not in cardiomyocytes expressing GqQ209L. Levels of phosphatidylinositol 4,5-bisphosphate (PIP2), the immediate precursor of PIP3, are also markedly lower in GqQ209L-expressing compared to control cells. Expression of a GqQ209L mutant that has diminished capacity to activate phospholipase C does not decrease PIP2 or Akt or induce apoptosis. In transgenic mice with cardiac G alpha q overexpression, heart failure and increased cardiomyocyte apoptosis develop during the peripartal period. Akt phosphorylation and PIP2 levels decrease concomitantly. Our findings suggest that an Akt-mediated cell survival pathway is compromised by the diminished availability of PIP2 elicited by pathological levels of Gq activity.
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PMID:Akt-mediated cardiomyocyte survival pathways are compromised by G alpha q-induced phosphoinositide 4,5-bisphosphate depletion. 1290 Apr 9

BCR (B-cell antigen receptor)-induced Ca(2+) signalling is initiated by activation of tyrosine kinases, which in concert with adaptor proteins and lipid kinases regulate PLC (phospholipase C) gamma2 activation. Vav and PI3K (phosphoinositide 3-kinase) are required for optimal Ca(2+) responses, although it has not been established, in primary B-cells, if both proteins are components of the same pathway. In vitro evidence suggests that binding of the PI3K lipid product PIP3 to Vav pleckstrin homology domain contributes to Vav activation. However, pharmacological inhibition of PI3K by wortmannin or deletion of the p110delta catalytic subunit has no effect on Vav activation in response to BCR engagement, suggesting that this mechanism does not operate in vivo. We also show that PI3K recruitment to phosphorylated-tyrosine-containing complexes is Vav-independent. Taken together with our previous observation that protein kinase B phosphorylation is normal in Vav-deficient B-cells, we suggest that PI3K activation is Vav-independent in response to strong signals delivered by multivalent cross-linking.
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PMID:BCR activation of PI3K is Vav-independent in murine B cells. 1549 14

The phospholipase c (plc) gene from Bacillus cereus was cloned into the pPICZC vector and integrated into the genome of Pichia pastoris. The phospholipase C (PLC) when expressed in P. pastoris was fused to the alpha-factor secretion signal peptide of Saccharomyces cerevisiae and secreted into a culture medium. Recombinant P. pastoris X-33 had a clear PLC band at 28.5 kDa and produced an extracellular PLC with an activity of 678 U mg(-1) protein which was more than a recombinant P. pastoris GS115 (552 U mg(-1) protein) or KM71H (539 U mg(-1) protein). The PLCs were purified using a HiTrap affinity column with a specific activity of 1335 U mg(-1) protein by P. pastoris GS115, 1176 U mg(-1) protein by P. pastoris KM71H and 1522 U mg(-1) protein by P. pastoris X-33. The three recombinant PLCs had high PLC activity in the low pH range of 4-5 and higher thermal stability (e.g. stable at 75 degrees C) than the wild-type PLC from B. cereus . Some organic solvents, surfactants and metal ions, e.g. methanol, acetone, Co(2+) and Mn(2+) etc., also influenced the activity of the recombinant PLCs.
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PMID:High-level expression of recombinant phospholipase C from Bacillus cereus in Pichia pastoris and its characterization. 1560 82

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